Modulus-686
SKU: 98345940798

Modulus-686

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Description

Modulus-686The Modulus 686 is a bridge parallel Class AB power amplifier that provides nearly 400 W into 4 . Thanks to the Neurochrome Modulus error correction circuit topology, the Modulus 686 has vanishingly low distortion, even at full power, which ensures a clear sound and a fatigue free listening experience. The wiring harness necessary for connecting to the Modulus 686 is included with the amplifier module. Technical Documentation Design Documentation

The Modulus-686 is a bridge/parallel Class AB power amplifier that provides nearly 400 W into 4 Ω. Thanks to the Neurochrome Modulus error correction circuit topology, the Modulus-686 has vanishingly low distortion, even at full power, which ensures a clear sound and a fatigue-free listening experience.

The wiring harness necessary for connecting to the Modulus-686 is included with the amplifier module.

Technical Documentation

  • Description
  • Features
  • Circuit Topology
  • Specifications
  • Performance Graphs
  • Resources
  • Review by a happy Modulus-686 owner:

    [...] Truth is, the amplifier is of the highest standard. It's utterly transparent, incredibly well balanced and allows you to simply hear everything that your source can provide. I have literally made fine adjustments to my system that I just couldn’t hear before. It’s that good. Don't mistake my transparency comments as "analytical" because beneath all of the wonder of the amplifiers transparency, lies a musical being. fluid and organic. It also hits your gut too, dynamics are dramatic and then out of nowhere, the subtlety catches you out. It's quite superb and unlike anything I have had here.
    End game amplifiers are a thing worth chasing and this one shows exactly why.
    Forget Valves Vs Solid State and all that nonsense. This is simply amplification done right.

    You can read the rest of his review on The Art of Sound: Neurochrome Modulus-686 Amplifier Review.

    Recommended Power Supply & Heat Sink

    The recommended power supply for the Modulus-686 is ±36 V with at least 10 A (RMS) available per channel. Thus, for a traditional unregulated power supply, I recommend a Power-686 with a 2×24 VAC or 2×25 VAC, 350-500 VA power transformer. The Antek AS-4225Hammond 1182S24, and RS Components P/N: 123-4040 are all good choices. Several additional choices are listed in the Modulus-686 Design Documentation.

    The selection of switching power supplies suitable for the Modulus-686 is rather limited. The Mean Well RPS-400-27-C is the best suited candidate. The Mean Well supplies are available from Mouser, Digikey, and others. You will need two of these SMPS units per Modulus-686 board. The resulting amplifier will provide 130 W into 8 Ω when powered by the RPS-400-27-C.

    The Modulus-686 is a Class-AB amplifier, thus dissipates a large amount of heat. It will therefore need to be fitted with a sizeable heat sink. For builds intended for music reproduction, my heat sink recommendations are as follows:

    • ±36 V supply voltage: 0.25 K/W or better (lower)
    • ±28 V supply voltage: 0.39 K/W or better (lower)

    These recommendations are based on an ambient temperature of 25 ºC and a maximum heat sink temperature of 60 ºC.

    The 4U/400 size ModuShop Dissipante chassis offers heat sinks with a thermal resistance of 0.23 K/W, thus is suitable for a stereo build of the Modulus-686, assuming one Modulus-686 module is mounted on each heat sink.

    Based on the 4U/400 ModuShop Dissipante chassis, I have designed a chassis for a stereo Modulus-686 amplifier. You can find the CAD files for the chassis in the Resources tab. Note that the files are provided as-is, where-is.

    Those who find the 4U (165 mm tall) chassis size a tad too big, should consider lowering the supply voltage to ±28 V. This will allow the Modulus-686 to deliver approx. 130 W into 8 Ω and 200 W into 4 Ω and reduces the size of the heat sink and chassis considerably.

    The ModuShop 3U/300 chassis size features heat sinks with a thermal resistance of 0.41 K/W would allow for adequate cooling of a ±28 V Modulus-686 build. Note that for ±28 V, a 2×22 VAC, 225-300 VA transformer should be used (per channel). The Antek AS-3222 or Hammond 1182P22 are both good candidates here.

    The ModuShop enclosures are available in North America from the diyAudio Store. They're available in the EU from ModuShop directly.

  • The key features of the Modulus-686 are listed below: 

    • Fully balanced mono construction.
    • 4-layer, gold plated, ROHS compatible circuit board. Professionally assembled in Calgary, Canada.
    • Output power: 360 W (4 Ω) – 240 W (8 Ω).
    • Ultra-low 0.00026 % THD+N (140 W, 8 Ω, 1 kHz).
    • Ultra-low 0.00048 % THD+N (100 W, 4 Ω, 1 kHz).
    • Ultra-low noise: 25.0 µV (RMS, A-weighted, 20 Hz - 20 kHz).
    • Gain: +26 dB. Changeable by resistor option. Minimum gain: +20 dB.
    • Differential/balanced input (can also be used with single-ended/unbalanced sources).
    • On-board EMI/RFI input filter and ESD protection.
    • Power supply agnostic circuit architecture. The Modulus-686 performs equally well on an unregulated power supply as it does on a well-regulated power supply.
    • The finished module measures 8.35 × 2.50 × 1.35 inches (Approx. 212 × 65 × 40 mm).

    Build Budget

    The Modulus-686 circuit board is available as a fully assembled and tested module. The wiring harness is included.

    The Modulus-686 circuit boards are professionally assembled in Calgary. My assembly vendor uses a pick-and-place machine for component placement and solders the boards using a 13-zone solder reflow oven. This procedure eliminates the issues with component cracking that you often see from the overseas assembly houses, resulting in a high-quality, high-reliability product. Thus, by relying on the professional assembly, I am able to deliver a better product at a lower price, while also increasing the chances of success for the builders.

  • Error Correction

    The Neurochrome Modulus composite amplifier topology uses a precision amplifier to perform error correction on a less precise power amplifier. The Modulus-686 is a fully balanced composite amplifier, which uses an LME49724 to perform error correction on six LM3886es configured as a bridge-parallel power amplifier. This results in an amplifier which has the precision of the LME49724 and the power of six LM3886es. This error correction is the central point of the Neurochrome Modulus composite architecture. The composite design will correct for many types of error, including distortion and power supply induced errors.

    The error correction circuit in the Modulus-686 has its own regulated power supply. Consequently, the power supply for the error correction circuit is clean and free of ripple, even if there is some ripple voltage on the power supply to the board. In addition, the error correction circuit (LME49724 and associated components) has its own power supply rejection (the PSRR of the LME49724 due to its design and architecture). The end result is that the error correction circuit will correct for any distortion and supply-induced errors in the LM3886es. This is done without introducing any errors of its own, while staying within the performance limitations of the LME49724. The end result is a very powerful amplifier with vanishingly low distortion.

    As mentioned, the error correction circuit also corrects for power supply induced errors in the power amplifier. This makes the Modulus-686 indifferent to the type of power supply used. When operated at levels below clipping, the Modulus-686 performs as well on a well regulated switching supply as it does on an unregulated power supply. The block diagram of the Modulus-686 is shown below.

    Balanced Input (which can also be used with unbalanced sources)

    As mentioned in the Key Features, the Modulus-686 has a differential (balanced, XLR) input. There are two reasons for this:

    1. Differential signalling sounds better.
    2. Differential signalling measures better as it rejects hum.

    Using differential signalling moves the ground connection between the various pieces of equipment out of the signal path. This results in a reduction in mains hum of about 90 dB (31,600×), which is nearly as good as you would get from an input transformer (but without the distortion of the transformer). Thus, I recommend using a differential connection to the Modulus-686. Sadly, many consumer and prosumer sources do not feature differential outputs. In those cases, I suggest using a pseudo-differential cable between the single-ended (unbalanced, RCA) source and the differential (balanced, XLR) input on the Modulus-686. These cables can easily be made by the savvy DIYer. They are also available commercially.

  • The specifications for the Modulus-686 are tabulated below. These were measurements of the first production sample.

    Parameter Value Notes
    Output Power 240 W 8 Ω, < 0.01 % THD+N
    THD -117 dB 1 W, 8 Ω, 1 kHz
    THD -116 dB 200 W, 8 Ω, 1 kHz
    THD+N -114 dB (0.00020 %) 140 W, 8 Ω, 1 kHz
    Output Power 360 W 4 Ω, < 0.1 % THD+N
    THD -110 dB 100 W, 4 Ω, 1 kHz
    THD+N -106 dB (0.00048 %) 100 W, 4 Ω, 1 kHz
    IMD: SMPTE 60 Hz + 7 kHz @ 4:1 -105 dB 100 W, 8 Ω
    IMD: DFD 18 kHz + 19 kHz @ 1:1 -123 dB 100 W, 8 Ω
    IMD: DFD 917 Hz + 5.5 kHz @ 1:1 -108 dB 1 W, 8 Ω
    Multi-Tone IMD Residual < -130 dBc AP 32-tone, 100 W, 8 Ω
    Gain 26 dB Resistor programmable. +20 dB min.
    Input Sensitivity 2.0 V RMS 200 W, 8 Ω
    Input Impedance 48 kΩ Differential and single-ended
    Bandwidth 135 kHz 1 W, -3 dB
    Slew Rate 16.2 V/µs 8 Ω || 1 nF load
    Total Integrated Noise and Residual Mains Hum 20.0 µV RMS 20 Hz - 20 kHz, A-weighted
    Total Integrated Noise and Residual Mains Hum 25.0 µV RMS 20 Hz - 20 kHz, Unweighted
    Output DC Offset Voltage

    < 2.0 mV

    < 10 mV

    Typical performance

    Max., guaranteed by design

    Dynamic Range (AES17) > 122 dB 1 kHz
    SINAD 114 dB 200 W, 8 Ω
    SINAD 107 dB 5 W, 8 Ω
    Common-Mode Rejection Ratio 100 dB 1 kHz
    Common-Mode Rejection Ratio 75 dB 20 kHz
    Damping Factor 350 1 kHz, 8 Ω
    Damping Factor 120 20 kHz, 8 Ω
    Dimensions 212 × 65 × 40 mm W × D × H
    Weight 190 g
    All parameters are measured at a supply voltage of ±36 V unless otherwise noted.

    The gain of the Modulus-686 can be changed by changing one resistor. Lowering the gain lowers the noise floor of the Modulus-686. The lowest gain supported is 20 dB and the performance improvements at this gain setting are listed below. The remaining performance parameters of the Modulus-686 are unaffected by the gain change.

    Parameter Value Notes
    Gain 20 dB R19 = DNP
    Input Sensitivity 4.0 V RMS 200 W, 8 Ω
    Total Integrated Noise and Residual Mains Hum 16.0 µV RMS 20 Hz - 20 kHz, A-weighted
    Total Integrated Noise and Residual Mains Hum 20.0 µV RMS 20 Hz - 20 kHz, Unweighted
    Dynamic Range (AES17) > 126 dB 1 kHz
    All parameters are measured at a supply voltage of ±36 V unless otherwise noted.
  • The performance of the Modulus-686 approaches that of my Audio Precision APx555 audio analyzer. Thus, the THD+N graphs show mostly the noise of the APx555 source and the noise floor of the Modulus-686. Similarly, the THD+N vs frequency is mostly dominated by the noise of the measurement gear, which is all state of the art. The biggest take-home message here is that the Modulus-686 contributes only a minuscule amount of distortion, intermodulation, and noise to the input signal. It is as close to a straight wire with gain as you can get, and the measurements below confirm this claim. Terms like "transparent" or "wire with gain" are overused, but those really are the best descriptors for the Modulus-686. It is difficult to describe what "The Source Material, Amplified" sounds like. Open and natural, I guess. But those words are overused too... Rather than devolving into marketing babble, I'll let the performance measurements speak for themselves.

    The measurements shown below were performed using a pair of Mean Well SE-600-36 switching supplies forming a ±36 V @ 16.6 A power supply. Note that these supplies are equipped with fans, thus are not desirable for use in home HiFi systems. They do work incredibly well as laboratory supplies, though.

    The graph below shows the THD+N vs output power for 8 Ω load. The amplifier delivers 225 W at the onset of clipping and 240 W when the THD+N crosses 0.1 %. 

    Repeating the measurement with a 4 Ω load reveals:

    Soft clipping starts at just over 300 W and 0.1 % THD+N is reached at about 360 W.

    The THD+N vs frequency plots for 100 W into 8 Ω and 4 Ω, respectively, are shown below. Note that the measurement bandwidth was changed to 60 kHz to capture at least three harmonics of 20 kHz. This also increases the noise bandwidth, hence the THD+N, of the measurement.

    The Modulus-686 operates in Class AB, so the plot below may appear a bit out of place as it shows the THD+N vs output power and frequency measurement commonly found in data sheets for Class D amplifiers. I am including it here to showcase that the Modulus-686 performs 10-100× better than most Class D amplifiers.

    While the performance of a power amp near clipping is relevant in the characterization of the amp, the amp will spend the vast majority of the time at much lower power levels. Thus, many look to the harmonic spectrum at 1 W output for clues about the sound quality of the amp. The harmonic spectrum at 1 W output into 8 Ω is shown below for the Modulus-686. Note that the distortion is very low and entirely even-ordered with just the second and fourth harmonics showing.

    Siegfried Linkwitz argues that the 1 kHz + 5.5 kHz intermodulation distortion (IMD) measurement is one of the measurements which is more indicative of the perceived sound quality. He bases this argument on the fact that IMD products in this measurement fall in the frequency range where the ear is the most sensitive (see the Fletcher-Munson curves for more detail). I think this argument carries a good amount of weight, so I measured the Modulus-686 accordingly. The measurement is shown below. Note that due to a limitation in the DFD IMD source of the APx555, the frequencies used must be an integer multiple of each other. Thus, I measured at 917 Hz (5500/6) + 5.5 kHz. I performed this measurement at 1 W. The result is shown below. Note that the performance of the Modulus-686 is well over 20 dB better than the performance of any of the amps shown on Linkwitz's site.

    The more conventional IMD measurements are shown below. The two plots show the SMPTE (60 Hz + 7 kHz @ 4:1) IMD and DFD (18 kHz + 19 kHz @ 1:1) IMD, respectively. Poor SMPTE IMD is often indicative of thermal issues or power supply issues in the amp. The 18k+19k IMD is indicative of the loop gain available in the amp near the end of the audible spectrum, which can be telling of an amplifier's sound quality. 

    Audio Precision has developed a multi-tone test signal, which contains 32 tones from 15 Hz to 20 kHz, logarithmically spaced in frequency. This test signal sounds a bit like an out-of-tune pipe organ. It is basically the closest I can get to music with a deterministic test signal. Thus, I argue that this multi-tone signal should be used in an IMD test for the best correlation between measurements and perceived sound quality. I run this test at levels just below clipping. Note that even the tallest IMD components are 130 dB below the reference level of 100 W into 8 Ω. This is likely why the Modulus-686 sounds transparent. This measurement shows that it does not add anything (or at least extremely little) to the source signal, even at levels just below clipping where the amplifier is working the hardest. 

    The Modulus-686 shows only a minuscule amount of residual mains hum. Note that this measurement was taken with the amplifier board sitting unshielded on a lab bench, thus, actual performance once enclosed in a metal chassis is likely to be better. This is the residual hum and noise of the Modulus-686 when powered by an SMPS:

    For completeness, I measured the amplitude response and gain flatness as shown below.

    As mentioned in the Key Features, the Modulus-686 features a differential input. The common-mode rejection of this input is shown below.

    The output impedance and resulting damping factor for 8 Ω load are shown below. 

    And finally the transient response is shown below. The first plot shows the amplifier output when provided a 10 kHz square wave input. As you can see, the output is completely clean and free of ringing.

    The first sign of overshoot occurs when 100 nF is added in parallel with the 8 Ω load resistor. Note that 100 nF is a rather capacitive load.

    Increasing the capacitive load further causes some ringing. This is due to the resonance between the output inductors and the load capacitor. While this looks dramatic, the key point is that the ringing dies out quickly. This is the sign of an amplifier with good stability.

  • I recommend using a 4U tall chassis with heat sinks in a full power Modulus-686. ModuShop in Italy provides some nice and affordable chassis. The CAD drawings provided below are intended for a full-power Modulus-686 build in a ModuShop 4U x 400 x 430 mm Dissipante chassis. The drawings are provided as-is. The perforated internal plate is an option on the ModuShop Dissipante chassis. These designs do not use the internal plate.

    Modulus-686 Rev. 1.1 with Guardian-86 Rev. 2.0 and Antek power transformer: 

    Modulus-686 Rev. 1.1 with Guardian-86 Rev. 2.0 and Toroidy power transformer: 

    Modulus-686 Rev. 1.1 with Guardian-686 and Antek power transformer: 

    Modulus-686 Rev. 1.1 with Guardian-686 and Toroidy power transformer: 

    A "Safe-n-Sane" version of the Modulus-686 using two Mean Well RPS-400-27 power supplies. This allows for 130 W into 8 Ω and 200 W into 4 Ω. It also allows the amp to fit in a nice and compact 3U x 330 x 300 mm ModuShop Mini Dissipante chassis. The CAD drawing for this is provided below. 

    Drill templates:

    The Modulus-686 needs to be mounted on a heat sink. To make life easier for the builders, I provide the drill templates below. Do note that the drill pattern varies between revisions, so please ensure you choose the correct template.

    Modulus-686 Rev. 1.1: Modulus-686_R1p1_DrillTemplate.pdf

    Modulus-686 Rev. 1.0, fully assembled: ModulusModule_DrillTemplate.pdf

    Modulus-686 Rev. 1.0, SMD-only (no backplate): ModulusBracket_DrillTemplate.pdf

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Ariel
Alexandria, US
★★★★★ 3
Not a bad start
Format: Kindle
3 stars Thank you Netgalley and Briar Boleyn for the ARC! A camelot/king Arthur retelling with fae. I was hooked by the idea of this book immediately and was eager to jump into this world. • slow burn • enemies to lovers • who did this to you Morgan Pendragon watched her mother die by her father's hand when she was just eight years old, hiding under the bed. Morgan is believed to have the tainted blood of the fae in her veins and is cast aside so that her fathers illegitimate son, Arthur, can become the king. She's seen his cruel treatment of the fae firsthand, so when he sends her on a journey to find a fae weapon she seizes the opportunity to do more with her life. Along the way, she finds more than she could have imagined. I don't know a whole lot about King Arthur and Camelot but I had a lot of fun with this story! The plot has some similar tropes to popular romantasy books (From blood and ash) but there's enough originality here that it doesn't feel like I'm reading a copy. I liked how the fae were different in appearance than what is typical in most fantasy books I've read. In this book they have blue hair, violet skin and a wide range of other characteristics. I thought that the world building was easy to follow and I could easily immerse myself into this world. After reading the blurb I kept wondering when she was going to go on the journey to find Excalibur and it doesn't happen until around the 45% mark. The story is a bit slow at times but starts to pick up once they begin their journey to find Excalibur. The John Wick style Inn was a fun concept that I enjoyed reading about. There are a lot of similarities to this and FBAA and I would have liked to have it be a little more different, but I'm hoping book two will have the story turn into something of its own. Overall I enjoyed reading this story and I'm looking forward to reading book two especially after that ending.
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Reviewed in the United States on May 27, 2023
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Vikki Lynn
Belleville, US
★★★★★ 5
Unraveling Fate and Fae: A Captivating Journey in "Queen of Roses"
Format: Kindle
"Queen of Roses" by Briar Boleyn is a dark fantasy romance that masterfully combines elements of myth, magic, and romance with a captivating King Arthur retelling infused with a Fae twist. From its intricately woven plot to its compelling characters, this novel delivers an immersive reading experience that will leave readers eagerly anticipating the next installment. At its core, "Queen of Roses" is an enchanting tale of forbidden love and destiny, featuring an exceptionally slow-burn romance that ignites with the intensity of an enemies-to-lovers trope. Against a backdrop of magic and mythical creatures, the story unfolds with tension, banter, and forced proximity, drawing readers into a world filled with love, friendships, self-discovery, and betrayal. While the novel excels in world-building, character development, and plot intricacies, some readers may yearn for a bit more fire and spice in certain aspects of the narrative. However, the promise of future developments in the series offers hope for an even more dynamic and engaging story to come. I know I personally cannot wait to get into book 2. With a cliffhanger ending that leaves hearts racing and minds reeling, "Queen of Roses" succeeds in immersing readers from start to finish. Its dark and twisted fantasy elements are expertly balanced with moments of adventure, action, and unexpected twists, keeping readers on the edge of their seats until the very last page. As the story delves into complex themes and explores the depths of its characters' struggles and desires, it's important to note that "Queen of Roses" may contain triggering content. Readers are advised to check the trigger warnings before diving into this captivating tale. Overall, "Queen of Roses" is a must-read for fans of dark fantasy romance, offering a mesmerizing journey that will leave readers eagerly anticipating the next chapter in the series. With its lush prose, intricate storytelling, and unforgettable characters, this novel is sure to leave a lasting impression on all who venture into its enchanted world. I want to extend a heartfelt shoutout to the author for granting me the opportunity to dive into "Queen of Roses" through NetGalley. It has been an absolute pleasure to explore the captivating world and characters crafted with such skill and imagination. Thank you for entrusting me with this glimpse into your enchanting world.
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Reviewed in the United States on April 1, 2024
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Luna Fae
Lexington, US
★★★★★ 4
Right from the start, I was drawn in by the prologue!!!
Format: Paperback, Format: Paperback
Queen of Roses (Blood of a Fae #1) by Briar Boleyn Genre General Fiction ( Adult), Romance, Sci-Fi & Fantasy, Dark Romance “More primordial than the stars. My name was on his lips as he promised unspeakable darkness to any who came between us.” Right from the start, I was drawn in by the prologue!!! I’m a big fan of “touch her, and you die” vibes, but I mean, what’s also not to love about a unique Arthurian retelling with gender twists, a treacherous royal court, a dangerous quest, magical Fae & mystical monsters, entwined with a bit of spice! Morgan, Princess of Pendrath and true heir to the throne has spent most of her life dimming her light to feel safe and to make others comfortable. She is treated as an outcast in the court and repressed by her family due to the blood of the Fae within her and forced to join the Temple of the Three as a priestess in training to one day replace Merlin. Her brother, King Arthur, who reminds me of Joffrey from Game of Thrones, later tells her that he has other plans and offers her a choice of the Temple or to marry her off for political gain, unless… that is, she can journey through the great unknown and return with a long-lost fae weapon with enchanted powers known as Excalibur. Her quest begins with a roguish crew that includes the mysterious, arrogant, and heart-tuggingly handsome Captain of the Royal Guard, Kairos Draven, whom she can’t decide if she wants to stab or indulge in pleasure with. Along the way are plenty of surprises, mystical creatures, and betrayal, all while Morgan uncovers more of the truth about herself and who she can trust. This book had intriguing storylines and lovable characters that kept me turning pages and wanting more. I can’t wait to see how it all unfolds and comes together in book 2, Court of Claws, which I just started reading!! Read if you’re into- Dark Fantasy/Romance Slow–Burn Question Everything Magic and Action Fae Arthurian Legend Stabby/Broken FFC Morally Gray MMC Forced Proximity Queen of Roses is perfect for Holly Black, Jennifer L. Armentrout, and Sarah J. Maas fans. Please check the trigger warnings page in the table of contents before reading this book.
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Reviewed in the United States on August 16, 2023
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Amanda Greathouse
Chelsea, US
★★★★★ 3
3.5 stars, A little boring to say the least.
Format: Kindle
Wow so I'm not sure where to begin on this one. This was a very different take on the legend of Arthur and Excalibur. This is told from the point of view of Morgan the sister of Arthur. Honestly the first 50% of this book is world building and character building which unfortunately was super boring for me. Morgan to me was a female MC that had a hard time in believing in herself. Sometimes taking too long to understand exactly what was going on around her. Draven was also a different male MC, like I couldn't put my finger on him and what he was all about. It was not until the last 10% of the book did we get some answers on the mystery that is Draven. The other 50% of the book centered around this big journey with everyone having a different motive. We see a spark of magic around this time that had me excited but then we never expanded upon that and what it could mean for the female MC. I feel like I want to read the second book just to see where this goes, but the spice was probably a 2 out of 5. Side characters are ok, Lancelet was fun but I almost felt like I wanted more.
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Reviewed in the United States on September 13, 2023
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Krystina
San Leandro, US
★★★★★ 5
A bewitching retelling of Arthurian legend!
Format: Kindle
In a land where the Fae have nearly become only a legend and those who still posses even a morsel of the blood are few and far between, Morgan finds herself cast aside by most of society due to her rumored half-Fae lineage, including her brother, King Arthur. With the kingdom at the brink of war, Arthur entrusts her with a quest to retrieve a Fae weapon of legendary power: the sword of Perun, Excalibur. Accompanied by men she loathes, Captain Kairos Draven and Ragnar Whitehorn, she embarks on her long and unbeknownst perilous journey, only to find that things she once believed to be myth are in fact very real. With devastating twists, omitted truths, witty banter and fierce action, Queen of Roses leaves you begging to know more about the secrets of Aercanum! Wow, wow, wow! Going into this story, I did not realize that it was going to be a retelling of Arthurian legend, especially not one with a fantastical twist! The unique spin almost gave me The Witcher vibes and I think adding Fae into the mix was quite interesting. I knew the basics of the legend but after reading this book, it has piqued my interest and makes me want to learn more about it. My attention was snatched as soon as I finished the prologue and I knew that I was going to devour this story. I truly enjoyed the gender swaps and even how Arthur was portrayed as villainous. Morgan’s past and even her parts of her present is absolutely heartbreaking, and I felt for her at times. I can only recall one other book that made me hate characters the way I despised Florian and Arthur, leaving me with my blood boiling and feeling disgusted. Even after finishing the book, Draven is still a mystery to me and I cannot figure out how to feel about him. I guess they just means that the author did an excellent job at conveying each character’s persona! The rich world building and imagery made it easy for me to visualize the places that the group visited along their journey. I am truly engulfed in this story and I cannot wait to see wait fate awaits Morgan and how the Fae will be even more incorporated in the next book!. I received a free copy of this book and am voluntarily leaving a review.
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Reviewed in the United States on August 11, 2023

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